Could displays correct your vision? "New technology under development at the University of California-Berkeley and MIT automatically corrects people's vision defects without glasses. Plug a glasses prescription into the new software, and the system calculates how to display the image so it won't look blurry. Basically, by adjusting the light from each pixel on a device and then passing it through a tiny mesh attached to a monitor or phone screen, the system personalizes the image so it's crystal clear." viaFast Company

How will liquid crystal displays help reach exaFLOP speeds? "The Optalysys Optical Solver Supercomputer will initially offer 9 petaflops of compute power, increasing to 17.1 exaflops by 2020. 40 gigaFlops demonstration uses 500x500 pixels working 20 times per second. Each pixel does the work of about 8000 floating point operations in each of the cycles. Speeding up 427 million times to 17.1 exaFLOPS can be done with 500,000 X 500,000 pixels and 8550 cycles per second. They can use multiple LCD displays. ...There was no need to drive the refresh rate up for human displays but there will be a need for optical computing. 4K monitors usually have 8.3 million pixels (3180X2160). Thirty six thousand 4K monitors would get to 500K X 500 K." viaNext Big Future

Is quantum dot the next step in LCD TV evolution? "Some brands have adopted quantum dots in their products, such as Amazon’s Kindle Fire HDX tablet PC and Sony’s Triluminos TV in 2013. However, quantum dots must surmount some hurdles to achieve wide usage. The first is the issue of Cadimium, which most quantum dots contain, and which is a regulated substance due to enviromental concerns. The second is the high price of quantum dot materials. Quantum dot makers are working on solving these issues. For example, Nanoco has produced Cadmium-free quantum dot materials, and other makers have secured a temporary exemption for Cadmium in products with quantum dot-based displays imported into Europe. Regarding price, many materials and films makers are entering the market, especially from Korea such as Samsung, LG, Sangbo, LMS, Hanwha and SKC-Haas. Increased competition will likely help to lower prices in the near future." viaECN Mag

Will superconducting quantum dots make LCD displays more vibrant? "Eric Nelson, who is also behind the development of the technology, says that it is called quantum dot enhancement film (QDEF), which enhances the colors of LCD screens. Nelson explains that current technology consumes a lot of energy to display bright colors on the LCD screen. However, QD efficiently provides high-color display and consumes far less energy when compared to other technologies. ..."They sandwiched the QDs between two polymer films, with the QDs embedded in an epoxy glue. Coatings on the film provide further protection and enhance the viewing experience," per ACS." viaTech Times

Who made the world's first touch-sensitive LCD basketball court? "Nike has created this huge touch-sensitive LCD basketball court for a training session with Kobe Bryant. The court has built-in motion sensors that track every player's movements individually. It can also display training exercises for them to follow and show statistics on performance. (Video)" viaGizmodo

Could this new type of heads-up display redefine the augmented reality experience? "Andrew Maimone’s device is called a Pinlight Display and he has been working on this device in collaboration with three researchers from the University of North Carolina and two from Nvidia Research. The Pinlight Display does not rely on standard optical components. Instead, it utilizes an array of “pinlights”, which are essentially bright dots. Maimone explains that “A transparent display panel is placed between the pinlights and the eye to modulate the light and form the perceived image.” He added that "Since the light rays that hit each display pixel come from the same direction, they appear in focus without the use of lenses." (Video)" viaMobile Commerce Press

Will Quantum Dots Dominate Displays? "The QD Vision approach adds quantum dots to strips of blue LED edge lights around an LCD panel. Some of this light is converted to red and green, which is mixed by a light guide to create a high-quality white backlight for the LCD panel’s color subpixels. The Nanosys/3M approach places the QDEF film over the back of the panel, and then a blue LED backlight is applied (typically through edge lighting and a light guide). Some of the blue light is converted in the film layer to red and green light before reaching a subpixel. A new, third, approach is being developed by a number of researchers. This involves putting the quantum dots directly on the blue LED chip. This can simplify the optical and light-management requirements, but it subjects the quantum-dot material to higher operating temperatures that can decrease performance." viaIEEE Spectrum

LEDs Made From ‘Wonder Material’ Perovskite "A hybrid form of perovskite – the same type of material which has recently been found to make highly efficient solar cells that could one day replace silicon – has been used to make low-cost, easily manufactured LEDs, potentially opening up a wide range of commercial applications in future, such as flexible color displays. This particular class of semiconducting perovskites have generated excitement in the solar cell field over the past several years, after Professor Henry Snaith’s group at Oxford University found them to be remarkably efficient at converting light to electricity. In just two short years, perovskite-based solar cells have reached efficiencies of nearly 20%, a level which took conventional silicon-based solar cells 20 years to reach." viaredOrbit

Do you have content to share with Display Alliance? Anyone can post press releases, white papers, commentary, videos, and more in the open section.

TouchPico projector creates touchscreens anywhere. "The secret to the touch interaction is in the TouchPico stylus. The built-in infrared camera determines the touchscreen coordinates and relays that information to the projector at up to 40 frames per second. That’s fast enough to play some Fruit Ninja and score. This definitely takes interaction above and beyond the combination of laptop, projector and some gyroscopic mouse. The TouchPico can definitely up your professional game, too" viaTechnologyTell

Can new automotive heads-up display be alternative to smartphone while driving? "Navdy wants to change the way we interact with our connected devices while driving altogether. It’s a device that can be mounted on any car’s dashboard and it provides a high-resolution heads-up display that helps you see the road behind it. Simpson says the technology is the same used by pilots when they land an airplane. By seeing what’s behind the display and still receiving information from it, the driver doesn’t take his or her eyes off the road, which should decrease the chances of an accident according to the NHTSA, which released guidelines last year to minimize in-driving distractions such as manual text entry on navigation systems." viaTechCrunch

Spheree lets you watch animated images in full 3D "Spheree is the work of a team of researchers working together from the University of São Paulo, Brazil, and the University of British Columbia, Canada, and it's mesmerising to behold. Like its name suggests, it's in the shape of a translucent sphere; inside, the viewer can see animations and images that appear to float in the centre; as the viewer moves around, they can see other sides of the object as their perspective changes. And it's all based on optical illusion. Packed inside the Spheree are multiple mini-projectors, which shine the images onto the interior surface of the sphere. Special software designed by the team blends the projector images together for a single, seamless image." viaCNET

5 Things CIOs Should Know About Digital Signage "4. Networks will be put to the test. An increasing percentage of digital signage content will be in ultra-high-definition (UHD), which could swamp an organization’s network bandwidth, particularly if the content is pulled from the cloud instead of being stored and played locally, says IHS analyst Sanju Khatri. Digital signage using UHD displays first appeared at McCarran International Airport in Las Vegas in 2013, and IHS predicts huge growth in UHD displays in the next few years." viaCIO

Creating Next-Generation Holograms "Researchers from the University of Cambridge have developed a new method for making multi-colored holograms from a thin film of silver nanoparticles, which could greatly increase the storage capabilities of typical optical storage devices. ...Using a single thin layer of silver, Montelongo and his colleagues patterned colorful holograms containing 16 million nanoparticles per square millimeter. Each nanoparticle, approximately 1,000 times smaller than the width of a human hair, scatters light into different colors depending on its particular size and shape. The scattered light from each of the nanoparticles interacts and combines with all of the others to produce an image. The device can display different images when illuminated with a different color light, a property not seen before in a device of this type. Furthermore, when multiple light sources are shone simultaneously, a multi-color image is projected." viaControlled Environments

What does automotive HMI technology have in store for the near future? "There is much potential for in-car HMI, but we have yet to see a similar revolution in the UX and UI of the automotive industry. ...However, in the haste to get on-trend, car manufacturers have simply used screens to replicate what has been before, rather than taking an empathetic, intelligent approach. Skeuomorphism abounds, where physical buttons are replaced with look-alikes on a screen — familiarity is retained, but at the expense of tactile feedback. Current touchscreen HMIs are often simply ill-considered re-appropriated solutions developed for completely different contexts (which we will discuss later in the series)." viaITProPortal

Is 4K the next flat panel display revolution, or another gimmick? "While 3D may not have stuck around, now every film is projected in 4K. However, there are circumstances when the benefit of 4K can’t be fully utilized, and it has to do with viewing distance. To perceive the full benefit of a 4K resolution, the human eye needs to be at a certain distance from the screen, depending on the size of the screen. This is also true for 1080p over 720p. "In general, from an integrators perspective, we try to look at what the viewing distance or the vieiwing angle of the folks involved might be," says Mike Hancock, Vice President at MechDyne Corporation. "Flat panels, except for some of the really extreme large-sized ones, really only work good for rooms that are less than 20 feet."" viaCorporateTechDecisions

Foldable, Bendable And Bright: The Future Of Displays "Micro transfer printing (µTP) is a method of, essentially, using a type of rubber stamp to pick up very thin strips of semiconductor material (as the “ink”) and place it somewhere else by “stamping” it. The advantage of this technique is that it allows you to put high performance semiconductor elements (such as gallium nitride (GaN)) onto substrates where they wouldn’t normally be compatible (like plastic). And you can place the stamp over and over thereby creating large areas of arbitrary shapes out of otherwise small, high performance components—in ways that are impossible or infeasible with traditional semiconductor manufacturing processes. Prof. John Rogers describes in the Science paper making displays out of micro-LEDs using transfer printing. The micro-LED displays had great battery life, were very bright and, due to the nature of µTP, could be made at low cost. The trifecta of low cost, good battery life and a scalable manufacturing platform while maintaining excellent performance comprises the display industry equivalent of winning eight gold medals in the same Olympic games. It’s a big deal, and Rogers may have delivered it." viaForbes

New automotive head-up display could help drivers avoid collisions in fog "The head-up display (HUD) is the work of Professor Vassilis Charissis and his team, based in the Virtual Reality and Simulation Laboratory (VRS Lab) within the School of Engineering and Built Environment. The display has been developed and evaluated in a 3D driving simulator, which allows drivers to navigate a perfectly recreated stretch of the M8, M74 and M80 in a choice of conditions. One of the options lets the driver tackle the motorways in dense fog, before giving them the chance to drive the same stretch again using the head-up display. When initiated, the windscreen of the car highlights where other vehicles are on the motorway within a 400-metre range and even lets the driver know when it’s safe to change lanes." viaFleetNews

A Vision of Future Displays "According to Brown Elliott, Samsung has not used even half the IP they have developed and will need some time to roll out what is already possible for the next few years. But Samsung’s loss could be someone’s gain. As I said in the beginning, Brown Elliott has a vision of the display industry in 10-15 years. The way she sees it, light field displays and light field imaging devices will merge in this time period. That means a clear sheet of glass (or plastic) will be both camera and display. With a light field display, a lens is placed above a number of pixels that can provide “views” from many directions. Current light field displays and imagers are always pixel limited so the resulting images are typically 50-200x lower resolution than the underlying display resolution." viaDisplay Central